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File PDF document Space observations of inland water bodies show rapid surface warming since 1985
Surface temperatures were extracted from nighttime thermal infrared imagery of 167 large inland water bodies distributed worldwide beginning in 1985 for the months July through September and January through March. Results indicate that the mean nighttime surface water temperature has been rapidly warming for the period 1985–2009 with an average rate of 0.045 ± 0.011°C yr−1 and rates as high as 0.10 ± 0.01°C yr−1. Worldwide the data show far greater warming in the mid‐ and high latitudes of the northern hemisphere than in low latitudes and the southern hemisphere.
Located in Resources / Climate Science Documents
File PDF document Spacie Chaney 1993.pdf
Located in Resources / TRB Library / SIM-SPA
File PDF document Spatial patterns and policy implications for residential water use
The front yard makes a powerful visual statement about the occupants of the residence. As visible statements, yards are likely to induce a behavioral response on the part of neighboring residents. As an example, residents may strive to keep their yard as green and lush as their neighbors. For Kelowna, British Columbia, a highly significant positive spatial lag for summer water use implies some degree of spatial emulation in water using behavior. Other variables such as lot size, building size, assessed value, presence of a pool, etc. impact on water use as expected. The presence of a spatial lag implies a spatial multiplier for water saving innovations. If local water managers and policy makers can influence the spatial pattern of water saving innovations, they may be able to increase the size of the multiplier effect. Similar spatial policies may also be applicable to other socially influenced behaviors that leave a spatial signature, such as protecting ecologically significant habitats in urban areas
Located in Resources / Climate Science Documents
File PDF document Spatial relationship between climatologies and changes in global vegetation activity
Vegetation forms a main component of the terrestrial biosphere and plays a crucial role in land-cover and climate- related studies. Activity of vegetation systems is commonly quantified using remotely sensed vegetation indices (VI). Extensive reports on temporal trends over the past decades in time series of such indices can be found in literature. However, little remains known about the processes underlying these changes at large spatial scales. In this study, we aimed at quantifying the spatial relationship between changes in potential climatic growth constraints (i.e. temperature, precipitation and incident solar radiation) and changes in vegetation activity (1982–2008). We demonstrate an additive spatial model with 0.5° resolution, consisting of a regression component representing climate-associated effects and a spatially correlated field representing the combined influence of other factors, including land-use change. Little over 50% of the spatial variance could be attributed to changes in climatologies; conspicuously, many greening trends and browning hotspots in Argentina and Australia. The nonassociated model component may contain large- scale human interventions, feedback mechanisms or natural effects, which were not captured by the climatologies. Browning hotspots in this component were especially found in subequatorial Africa. On the scale of land-cover types, strongest relationships between climatologies and vegetation activity were found in forests, including indications for browning under warming conditions (analogous to the divergence issue discussed in dendroclimatology). Keywords: climate- and human-induced change, climatologies, Gaussian random field, growth constraints, regression, spatial additive model, vegetation-activity trends
Located in Resources / Climate Science Documents
File PDF document Spatially and temporally consistent prediction of heavy precipitation from mean values
Extreme precipitation can cause flooding, result in substantial damages and have detrimental effects on ecosystems1,2. Climate adaptation must therefore account for the greatest precipitation amounts that may be expected over a certain time span3. The recurrence of extreme-to-heavy precipitation is notoriously hard to predict, yet cost–benefit estimates of mitigation and successful climate adaptation will need reliable information about percentiles for daily precipitation. Here we present a new and simple formula that relates wet-day mean precipitation to heavy precipitation, providing a method for predicting and downscaling daily precipitation statistics. We examined 32,857 daily rain-gauge records from around the world and the evaluation of the method demonstrated that wet-day precipitation percentiles can be predicted with high accuracy. Evaluations against independent data demonstrated high skill in both space and time, indicating a highly robust methodology.
Located in Resources / Climate Science Documents
File PDF document Spatiotemporal patterns of terrestrial carbon cycle during the 20th century
We evaluated how climate change, rising atmospheric CO2 concentration, and land use change influenced the terrestrial carbon (C) cycle for the last century using a process-based ecosystem model. Over the last century, the modeled land use change emitted about 129 Pg of C to the atmosphere. .... Generally, interannual changes of carbon fluxes in tropical and temperate ecosystems are mainly explained by precipitation variability, while temperature variability plays a major role in boreal ecosystems.
Located in Resources / Climate Science Documents
File PDF document SPECIAL REPORT:CLIMATE OF OPPORTUNITY
Awareness about climate change is at an all-time high. Will this surge of attention translate into more jobs for climate scientists?
Located in Resources / Climate Science Documents
File PDF document Species invasions and extinction: The future of native biodiversity on islands
Predation by exotic species has caused the extinction of many native animal species on islands, whereas competition from exotic plants has caused few native plant extinctions. Exotic plant addition to islands is highly nonrandom, with an almost perfect 1 to 1 match between the number of naturalized and native plant species on oceanic islands. Here, we evaluate several alternative implica- tions of these findings. Does the consistency of increase in plant richness across islands imply that a saturation point in species richness has been reached? If not, should we expect total plant richness to continue to increase as new species are added? Finally, is the rarity of native plant extinctions to date a misleading measure of the impact of past invasions, one that hides an extinction debt that will be paid in the future? By analyzing historical records, we show that the number of naturalized plant species has increased linearly over time on many individual islands. Further, the mean ratio of naturalized to native plant species across islands has changed steadily for nearly two centuries. These patterns suggest that many more species will become naturalized on islands in the future. We also discuss how dynamics of invasion bear upon alternative saturation scenarios and the implications these scenarios have for the future retention or extinction of native plant species. Finally, we identify invasion-motivated research gaps (propagule pressure, time-lags to extinction, abundance shifts, and loss of area) that can aid in forecasting extinction and in developing a more comprehensive theory of species extinctions. birds 􏰝 plants 􏰝 species saturation
Located in Resources / Climate Science Documents
Person Spencer, Sandy
Located in Expertise Search
File PDF document Spooner Vaughn 2006.pdf
Located in Resources / TRB Library / SPA-STE